Generating financial reports

ABSTRACT

In some embodiments, a method for generating financial reports, includes selecting a first request from a plurality of pending requests. The first request requests a report on information regarding one or more accounts with a financial institution. The first request is separated into a plurality of content requests. The plurality of content requests represent requests for information to be incorporated into the requested report. A plurality of subreports are received in response to each of the plurality of content requests. The requested report is generated in response to the first request by binding each of the plurality of subreports.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. patent application Ser. No.12/751,221 filed Mar. 31, 2010, entitled “Generating Financial Reports.”

TECHNICAL FIELD

The present disclosure relates generally to reports and morespecifically to generating financial reports.

BACKGROUND

Reports present content to a specified audience. For example, financialreports may be used to display information regarding a customer'sactivities with a financial institution. A financial institution mayinclude any individual, business, or organization that engages inbanking activities, such as maintaining accounts (e.g., transactionaccounts, savings accounts, credit accounts, investment accounts,insurance accounts, portfolios, etc.), receiving deposits, creditingaccounts, debiting accounts, extending credit to account holders,purchasing securities, providing insurance, and supervising a customer'sportfolio.

SUMMARY

In some embodiments, a method for generating financial reports, includesselecting a first request from a plurality of pending requests. Thefirst request requests a report on information regarding one or moreaccounts with a financial institution. The first request is separatedinto a plurality of content requests. The plurality of content requestsrepresent requests for information to be incorporated into the requestedreport. A plurality of subreports are received in response to each ofthe plurality of content requests. The requested report is generated inresponse to the first request by binding each of the plurality ofsubreports.

Certain embodiments of the invention may provide one or more technicaladvantages. A technical advantage of one embodiment may include thecapability to generate reports regarding one or more customer accountswith a financial institution. A technical advantage of one embodimentmay also include the capability to schedule reports, share reports withcustomers through online channels, and create reports real-time duringface-to-face meetings. A technical advantage of one embodiment may alsoinclude the capability to generate reports across multiple businesslines and provide information on items such as balances, holdings,portfolio analysis, and performance details.

Various embodiments of the invention may include none, some, or all ofthe above technical advantages. One or more other technical advantagesmay be readily apparent to one skilled in the art from the figures,descriptions, and claims included herein.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present disclosure and itsadvantages, reference is now made to the following description taken inconjunction with the accompanying drawings, in which:

FIG. 1 shows a report generation system according to one embodiment;

FIG. 2 shows one embodiment of a computer system;

FIGS. 3A and 3B show a method for generating a report according to oneembodiment;

FIG. 4 shows a queue according to one embodiment; and

FIG. 5 shows a method of rendering a user interface according to oneexample embodiment.

DETAILED DESCRIPTION

It should be understood at the outset that, although exampleimplementations of embodiments of the invention are illustrated below,the present invention may be implemented using any number of techniques,whether currently known or not. The present invention should in no waybe limited to the example implementations, drawings, and techniquesillustrated below. Additionally, the drawings are not necessarily drawnto scale.

A financial institution may include any individual, business, ororganization that engages in banking activities, such as maintainingaccounts (e.g., transaction accounts, savings accounts, credit accounts,investment accounts, insurance accounts, portfolios, etc.), receivingdeposits, crediting accounts, debiting accounts, extending credit toaccount holders, purchasing securities, providing insurance, andsupervising a customer's portfolio. Financial institutions may engage insuch diverse banking activities through one or multiple lines ofbusiness. Teachings of certain embodiments recognize the capability togather information regarding a customer's business with a financialinstitution and provide a report based on this information.

FIG. 1 shows a report generation system 1000 according to oneembodiment. In operation, system 1000 generates reports for clients 100a, 100 b, and 100 c (collectively, clients 100). In this example, system1000 features an application server 200, a report server 300, anorchestrator server 400, a report services server 500, a data source600, and retrieval systems 700, communicating across one or morenetworks 800.

In the illustrated embodiment, clients 100 comprise a user 105 a and aclient system 110 a; a user 105 b and a client system 110 b; and a user105 c and a client system 110 c, respectively (collectively, users 105and client systems 110). One example of client system 110 includescomputer 10 of FIG. 2. Users 105 may include any individual, group ofindividuals, entity, machine, and/or mechanism that interacts withclient systems 110. Examples of users 105 include, but are not limitedto, a customer, customer service representative, manager, executive,accountant, engineer, technician, contractor, agent, and/or employee.

In one example embodiment, users 105 a and 105 b represent customerservice representatives. In this example, users 105 a and 105 b useclient systems 110 a and 110 b, respectively, to retrieve reports for acustomer. In another example embodiment, user 105 c represents acustomer. In this example, user 105 c uses client system 110 c toretrieve reports.

In some embodiments, clients 100 a and 100 b are associated withdifferent lines of business. In some examples, client systems 110 a and110 b run incompatible forms of business software. For example, clientsystems 110 a and 110 b may run different proprietary and/or legacysoftware. Teachings of certain embodiments recognize the capability todeliver reports to clients across different lines of business runningdifferent forms of software.

In the illustrated embodiment, application server 200 includes one ormore interface generators 210 is operable to provide a web page orremote application to client systems 110 a and 110 b. One example ofapplication server 200 includes computer system 10 of FIG. 2. In oneexample embodiment, application server 200 includes one or more webservers and/or application servers.

Interface generators 210 may provide a user interface to clients 100 aand 100 b. In some embodiments, interface generators 210 consultconfiguration files 310 for information on how to render a userinterface to clients 100 a and 100 b. In one example, interfacegenerators 210 provide a user interface operable to receive reportrequests from and deliver finished reports to clients 100 a and 100 b.In another example, interface generators 210 list available reports,such as all available reports for a particular customer, and allowclients 100 to access the available reports. Additional embodiments ofinterface generators 210 are described with regard to FIG. 5.

In the illustrated embodiment, report server 300 includes one or morereport configuration files 310, report requests 320, subreports 330, andcompleted reports 340. One example of report server 300 includescomputer system 10 of FIG. 2. In this example, report server 300 storesconfiguration files 310, report requests 320, subreports 330, andcompleted reports 340 on a memory, such as memory 18.

Configuration files 310 store information describing how to render auser interface to clients 100 and/or generate completed reports 340. Forexample, in one embodiment, configuration files 310 specify that a userinterface is to be provided on a webpage, what is to be displayed onthat web page, where a user interface is to be provided on the webpage,and client-side validation information for the user interface component.In another example, configuration files 310 specify an underlyingbusiness process component for a corresponding user interface componentand the input expected for this business process component. In yetanother example, configuration files 310 specify how the user interfacereceives raw input from clients 100 and processes the raw input to getthe desired output. In some embodiments, this information includes howto receive a report request, how to process a report request, how toreply to a report request, and/or how to provide a requested report inresponse to the report request.

Report requests 320 represent requests for reports received. However,teachings of certain embodiments recognize that report server 300 mayreceive report requests 320 from any suitable source, such as fromclients 100 through application server 200. Additionally, reportrequests 320 posted to report server 300 may not necessarily be in thesame format as the report request generated by clients 100. In someembodiments, system 1000 automatically generates and schedules reportrequests 320 rather than receive requests from clients 100.

Subreports 330 represent partial reports generated by orchestratorserver 400. Completed reports 340 represent a report ready for deliveryto clients 100 in response to report request 320. Subreports 330 andcompleted reports 340 may be generated in any suitable format. Examplesinclude Portable Document Format (PDF), Tagged Image File Format (TIFF),and eXtensible Markup Language (XML) format. Additional examples andembodiments of configuration files 310, report requests 320, subreports330, and completed reports 340 are described with regard to FIGS. 3 and4.

In the illustrated embodiment, orchestrator server 400 includes one ormore report orchestrators 410. One example of orchestrator server 400includes computer system 10 of FIG. 2. Report orchestrator 410 isresponsible for receiving report requests 320, consulting configurationfiles 310, generating subreports 330, and binding subreports 330 intocompleted reports 340. Additional examples and embodiments are describedwith regard to FIGS. 3 and 4.

In the illustrated embodiment, report services server 500 features oneor more report services 510. One example of report services server 500includes computer system 10 of FIG. 2.

Report services 510 may include any service used to retrieve, format, orgenerate information for inclusion into a report. One example reportservice 510 is a finder service used to retrieve data from data source600 for inclusion in a report. Another example report service 510 is aeXtensible Stylesheet Language-Formatting Object (XSL-FO) machine usedto generate subreports 330 using XML. Yet another example report service510 is an international report service used to generate reports forinternational users or process information regarding internationalaccounts. For example, in one embodiment, international report servicesupports multiple languages and currency conversions.

In some embodiments, report services 510 consult configuration files310. For example, in one embodiment, configuration files 310 specify therelationship between requests received from clients 100 through the userinterface and the available financial data 610. For example, in someembodiments interface generators 210 allow clients 100 to select one ormore report templates; after selection, report orchestrators 410 and/orreport services 510 consult configuration files 310 to determine whichdata to include for each respective report template.

In the illustrated embodiment, data source 600 provides financial data610 for ultimate inclusion in completed reports 340. One example of datasource 600 includes computer system 10 of FIG. 2. In this example, datasource 600 stores financial data 610 on a memory, such as memory 18. Oneexample of financial data 610 may include financial information providedby a financial information generation system, such as the financialinformation generation system 1000 of U.S. patent application Ser. No.12/750,941, titled “Generating Financial Report Information,” filed Mar.31, 2010, [[Attorney Docket No. 015444.0545, PMN 4021US1]], which ishereby incorporated by reference in its entirety.

Financial data 610 may include any suitable information and may bestored in any suitable organization or format. In one exemplaryembodiment, financial data 610 represents data regarding a customer'saccounts with a financial institution. Examples of financial data 610include current data, historical data, and effective-dated data. In someembodiments, financial data 610 includes data other than a customer'sdata, such as market data, fund data, and any other suitable data.

In some embodiments, this financial data 610 is included in a database.For example, financial data 610 may include a table of all transactionsfor a customer's deposit account. In another example, financial data 610includes tables chronicling transactions and changes in value in varioussecurities in a customer's investment portfolio. However teachings ofcertain embodiments recognize that financial data 610 is not limited todatabase data, but rather financial data 610 may be represented in anysuitable form or format. For example, in some embodiments, data store600 produces financial data 610 as subreports 330. In this example,report orchestrator 410 identifies the appropriate subreport 330 storedwith financial data 610 and either retrieves data from subreport 330 togenerate a new subreport 330 or copies subreport 330 from data source600 to report server 300.

In the illustrated embodiment, retrieval systems 700 represent systemsfor retrieving and communicating reports to client 100 c. One example ofretrieval systems 700 includes computer system 10 of FIG. 2.

In one example embodiment, retrieval system 700 includes a print system.Teachings of certain embodiments recognize that incorporating a printsystem into system 1000 may allow system 1000 to efficiently generateand print periodic reports, such as daily, monthly, quarterly, or yearlyreports, for inclusion in a customer statement or for any other suitablepurpose.

In another example embodiment, retrieval system 700 includes an emailserver and/or a webpage server. In this example, client 100 c requests areport, such as through a web portal, and retrieval system 700 deliversthe requested report to client 100 c. In another example, clients 100 aor 100 b request a report be delivered to client 100 c and select a modeof delivery, and system 1000 chooses an appropriate retrieval system 700for the selected mode of delivery.

In the illustrated embodiment, network 800 may represent any number andcombination of wireline and/or wireless networks suitable for datatransmission. Network 800 may, for example, communicate internetprotocol packets, frame relay frames, asynchronous transfer mode cells,and/or other suitable information between network addresses. Network 800may include a public or private data network; one or more intranets; alocal area network (LAN); a metropolitan area network (MAN); a wide areanetwork (WAN); a wireline or wireless network; a local, regional, orglobal communication network; an optical network; a satellite network; acellular network; an enterprise intranet; all or a portion of theInternet; other suitable communication links; or any combination of thepreceding.

System 1000 may include one or more networks 800. For example, FIG. 1shows multiple networks 800. However, teachings of certain embodimentsrecognize that more or fewer networks 800 may be used. Further,teachings of certain embodiments also recognize that communications overnetwork 800 is one example of a mechanism for communicating betweenparties, and any suitable mechanism may be used.

In operation, according to one embodiment, system 1000 generatesrequested reports and delivers the reports to designated recipients. Forexample, in one embodiment, client 100 a requests an immediate PDFreport on a customer's investment portfolio. In this example, client 100a submits the request through a user interface provided by interfacegenerators 210. In response, application server 200 generates reportrequest 320 and provides scheduling, formatting, and any other suitableinformation in configuration file 310. Report orchestrator 410 receivesreport requests 320 and consults configuration files 310. Reportorchestrator 410 generates subreports 330 by requesting financial data610 through report services 510. Report orchestrator 410 then bindssubreports 330 into completed report 340 and posts completed report 340to report server 300. Application server 200 retrieves completed report340 and communicates completed report 340 to client 100 a.

FIG. 2 shows one embodiment of a computer system 10. Computer system 10may include processors 12, input/output devices 14, communications links16, and memory 18. In other embodiments, computer system 10 may includemore, less, or other components.

Computer system 10 may be operable to perform one or more operations ofvarious embodiments. Although the embodiment shown provides one exampleof computer system that may be used with other embodiments, such otherembodiments may additionally utilize computers other than computersystem 10. Additionally, embodiments may also employ multiple computersystems 10 or other computers networked together in one or more publicand/or private computer networks, such as one or more networks 800.

Processors 12 represent devices operable to execute logic containedwithin a medium. Examples of processor include one or moremicroprocessors, one or more applications, and/or other logic. Computersystem 10 may include one or multiple processors 12.

Input/output devices 14 may include any device or interface operable toenable communication between computer system 10 and external components,including communication with a user or another system. Exampleinput/output devices 14 may include, but are not limited to, a mouse,keyboard, display, and printer.

Network interfaces 16 are operable to facilitate communication betweencomputer system 10 and another element of a network, such as othercomputer systems 10. Network interfaces 16 may connect to any number andcombination of wireline and/or wireless networks suitable for datatransmission, including transmission of communications. Networkinterfaces 16 may, for example, communicate audio and/or video signals,messages, internet protocol packets, frame relay frames, asynchronoustransfer mode cells, and/or other suitable information between networkaddresses. Network interfaces 16 connect to a computer network or avariety of other communicative platforms including, but not limited to,a public switched telephone network (PSTN); a public or private datanetwork; one or more intranets; a local area network (LAN); ametropolitan area network (MAN); a wide area network (WAN); a wirelineor wireless network; a local, regional, or global communication network;an optical network; a satellite network; a cellular network; anenterprise intranet; all or a portion of the Internet; other suitablenetwork interfaces; or any combination of the preceding.

Memory 18 represents any suitable storage mechanism and may store anyinformation for use by computer system 10. Memory 18 may comprise one ormore tangible, computer-readable, and/or computer-executable storagemedium. Examples of memory 18 include computer memory (for example,Random Access Memory (RAM) or Read Only Memory (ROM)), mass storagemedia (for example, a hard disk), removable storage media (for example,a Compact Disk (CD) or a Digital Video Disk (DVD)), database and/ornetwork storage (for example, a server), and/or other computer-readablemedium.

In some embodiments, memory 18 stores logic 20. Logic 20 facilitatesoperation of computer system 10. Logic 20 may include hardware,software, and/or other logic. Logic 20 may be encoded in one or moretangible, non-transitory media and may perform operations when executedby a computer. Logic 20 may include a computer program, software,computer executable instructions, and/or instructions capable of beingexecuted by computer system 10. Example logic 20 may include any of thewell-known OS2, UNIX, Mac-OS, Linux, and Windows Operating Systems orother operating systems. In particular embodiments, the operations ofthe embodiments may be performed by one or more computer readable mediastoring, embodied with, and/or encoded with a computer program and/orhaving a stored and/or an encoded computer program. Logic 20 may also beembedded within any other suitable medium without departing from thescope of the invention.

FIGS. 3A and 3B show a method 3000 for generating a report according toone embodiment. In FIG. 3A, report orchestrator 410 initiates a numberof threads, identified as request processor 411, request decomposer 412,report handler 413, request dispatcher 414, report request agent 415,and request binder 416 (collectively, threads 411-416). Teachings ofcertain embodiments recognize that report orchestrator 410 mayasynchronously initiate multiple instances of each of threads 411-416.

At step 3100, report orchestrator 410 consults configuration files 310.In some embodiments, configuration files 310 identify parameters forrequest processor 411 and provide the start, stop, and sleep durationfor each of threads 411-416. At step 3200, request orchestrator 410initiates request processor 411.

At step 3300, request processor 411 selects report request 320 fromqueue 325. In some embodiments, queue 325 arranges pending reportrequests 320 according to queue rules. These queue rules may prioritizereport requests 320 according to parameters such as a category ofrequesting user (e.g., customer, employee, or automated report), timeand date of request, current time and date (e.g., ordinary businesshours), expected time needed to process a report request, and a type ofrequested report. Examples of a type of requested report include, butare not limited to, a periodic statement report, a report in response toan internet request, international reports, and a report limited tospecific accounts or categories of information. Additional embodimentsof queue 325 are described with regard to FIG. 4.

At step 3400, request processor 411 submits report request 320 torequest decomposer 412. At step 3500, request decomposer 412 decomposesrequest 320 into subrequests, and report handler 413 places thesubrequests into queue 335. In some embodiments, request decomposer 412applies decomposing rules provided by configuration files 310 todecompose request 320 into individual content requests. In oneembodiment, request decomposer 412 calls a transaction to resolve andidentify customer accounts in each subrequest.

At step 3600, request dispatcher 414 requests subreports 330 from reportservices 510 for each of the subrequests. Teachings of certainembodiments recognize that step 3600 may be performed asynchronously.For example, in one embodiment, multiple subreports 330 identifysubrequests and request subreports 330 without waiting for othersubreports 330 to be obtained.

Once report services 510 return with one of the requested subreports330, report services 510 submit the subreport 330 to report requestagent 415 at step 3700, which then stores the subreport 330 in queue 335on report server 300.

At step 3800, request binder 416 monitors the subreport queue 335 forcompleted subreports 330. Once request binder 416 determines that thesubreport queue 335 has subreports 330 for each of the subrequests fromstep 3500, request binder 416 binds the subreports 330 to form completedreport 340 and then posts the completed report to report server 300 atstep 3900. Report binder 416 may bind subreports 330 according to anysuitable mechanism. For example, in one embodiment, subreports 330 arein a PDF or TIFF format, and report binder 416 attaches pages fromsubreports 330 to form a single document completed report 340. Inanother example, request binder 416 extracts information from subreports330 to form a new completed report 340.

FIG. 4 shows queue 325 according to one embodiment. In the illustratedembodiment, queue 325 is a table of report requests 320, with each rowrepresenting one report request 320. In this example, configurationfiles 310 provide the queue rules that define the order of queue 325. Insome embodiments, query 325 assigns each report request 320 to a requestprocessor 411. Queue 325 may also specify the start, stop, and sleepduration for each request processor 411, which may enable orchestratorsever 400 to provide dedicated request processors 411 as per demand. Forexample, in one embodiment, customer requests have higher priorityduring business hours, and queue 325 will thus call more requestprocessors 411 active to handle requests from customers. At night,statement report requests may have higher priority, and queue 325 maycall different request processors 411 active to handle statementreports.

FIG. 5 shows a method 5000 of rendering a user interface according toone example embodiment. At step 5100, interface generator 210 receivesreport category selections from client 100 a. At step 5200, interfacegenerator 210 retrieves configuration XML from configuration file 310for each category selection from client 100 a. In one example, interfacegenerator 210 renders the user interface to client 100 a based on client100 a's line of business and based on parameters included inconfiguration file 310. In this example, the rendered user interface mayinclude report category options that are based on the line of businessand configuration file 310. 5200′ represents an example configurationXML file 310 that interface generator 210 retrieves.

At step 5300, interface generator 210 determines whether the selectedcategory is a standard category or a custom category. If client 100 aselected a standard category, then interface generator 210 loadsstandard category control at step 5400 and displays a user interface forall reports in the selected standard category at step 5500. 5500′represents an example user interface presenting options for standardreport categories.

If client 100 a selected a custom category, then interface generator 210loads custom category control at step 5310 and retrieves a userinterface handler from configuration file 310 for each of the customcategories selected at step 5320. At step 5330, interface generator 210loads the user interface handler for the custom categories and thendisplays a user interface for the selected custom categories at step5340.

Modifications, additions, or omissions may be made to the systems andapparatuses described herein without departing from the scope of theinvention. The components of the systems and apparatuses may beintegrated or separated. Moreover, the operations of the systems andapparatuses may be performed by more, fewer, or other components. Themethods may include more, fewer, or other steps. Additionally, steps maybe performed in any suitable order. Additionally, operations of thesystems and apparatuses may be performed using any suitable logic. Asused in this document, “each” refers to each member of a set or eachmember of a subset of a set.

Although several embodiments have been illustrated and described indetail, it will be recognized that substitutions and alterations arepossible without departing from the spirit and scope of the presentinvention, as defined by the appended claims.

To aid the Patent Office, and any readers of any patent issued on thisapplication in interpreting the claims appended hereto, applicants wishto note that they do not intend any of the appended claims to invokeparagraph 6 of 35 U.S.C. §12 as it exists on the date of filing hereofunless the words “means for” or “step for” are explicitly used in theparticular claim.

What is claimed is:
 1. A method for generating financial reports,comprising: selecting, by at least one server comprising at least oneprocessor, a first request from a plurality of pending requests storedin a memory, the first request requesting a report on informationregarding one or more accounts with a financial institution; accessing,by the at least one server, one or more decomposing rules; applying, bythe at least one server, the one or more decomposing rules to the firstrequest to separate the first request into a plurality of contentrequests, the plurality of content requests representing requests forinformation to he incorporated into the requested report; receiving, bythe at least one server, a plurality of subreports in response to eachof the plurality of content requests; and generating, by the at leastone server, the requested report in response to the first request bybinding each of the plurality of subreports.
 2. The method of claim 1,further comprising: receiving report selections from a user interface,the report selections identifying one or more report categories to heprovided in the requested report.
 3. The method of claim 1, theselecting the first request further comprising: arranging the pluralityof pending requests in a queue according to configuration rules, theconfiguration rules prioritizing pending requests according to anattribute selected from the group consisting of a category of requestinguser, a time and date of request, and a current time and date; andselecting the first request by selecting the highest-priority pendingrequest in the queue.
 4. The method of claim 3, wherein theconfiguration rules comprise decomposing rules specifying how toseparate the first request into the plurality of content requests. 5.The method of claim 1, wherein: the receiving the plurality ofsubreports is performed asynchronously for each of the plurality ofcontent requests; and the generating the requested report is performedafter all of the plurality of subreports are generated.
 6. The method ofclaim 1, wherein the receiving the plurality of subreports comprises:requesting content from one or more content providers in response toeach of the plurality of content requests; and generating the pluralityof subreports from the content retrieved in response to each of theplurality of content requests.
 7. The method of claim 1, wherein theplurality of subreports are generated in a format selected from a groupconsisting of Portable Document Format (PDF), Tagged Image File Format(TIFF), and eXtensible Markup Language (XML) format.
 8. A system forgenerating financial reports, comprising: a request processor operableto select a first request from a plurality of pending requests, thefirst request requesting a report on information regarding one or moreaccounts with a financial institution; a request decomposer operable toaccess one or more decomposing rules and apply the one or moredecomposing rules to the first request to separate the first requestinto a plurality of content requests, the plurality of content requestsrepresenting requests for information to be incorporated into therequested report; a report request agent comprising logic operable whenexecuted by a processor to receive a plurality of subreports in responseto each of the plurality of content requests; and a request binderoperable to generate the requested report in response to the firstrequest by binding each of the plurality of subreports.
 9. The system ofclaim 8, further comprising a user interface generator operable to:receive report selections from a user interface, the report selectionsidentifying one or more report categories to be provided in therequested report.
 10. The system of claim 8, the request processorfurther operable to select the first request by: arranging the pluralityof pending requests in a queue according to configuration rules, theconfiguration rules prioritizing pending requests according to anattribute selected from the group consisting of a category of requestinguser, a time and date of request, and a current time and date; andselecting the first request by selecting the highest-priority pendingrequest in the queue.
 11. The system of claim 10, wherein theconfiguration rules comprise decomposing rules specifying how toseparate the first request into the plurality of content requests. 12.The system of claim 8, wherein: the report request agent receives theplurality of subreports asynchronously for each of the plurality ofcontent requests; and the request binder generates the requested reportafter all of the plurality of subreports are generated.
 13. The systemof claim 8, further comprising: a request dispatcher operable to requestcontent from one or more content providers in response to each of theplurality of content requests; and a report service operable to generatethe plurality of subreports from the content retrieved in response toeach of the plurality of content requests.
 14. The method of Claim 1,further comprising: accessing, one or more decomposing rules.
 15. Themethod of claim 1, further comprising: receiving, by the at least oneserver, scheduling information from a user interface, the schedulinginformation identifying when the requested report should be generated;generating, by the at least one server, the requested report whenidentified by the scheduling information; and in response to thegenerating the requested report, communicating by the at least oneserver, the requested report to the user interface for display to auser.
 16. The system of claim 8, the request processor further operableto select the first request by: accessing one or more decomposing rules.17. The system of claim 8, further comprising a user interface generatorcomprising logic operable when executed to: receive schedulinginformation from a user interface, the scheduling informationidentifying when the requested report should be generated; generate therequested report when identified by the scheduling information; and inresponse to the generating the requested report, communicate therequested report to the user interface for display to a user.